TRANSIENT HEAT TRANSFER ANALYSIS IN COMPOSITE METAL CYLINDRICAL VESSEL USING THE LAYERWISE THEORY AND DIFFERENTIAL QUADRATURE METHOD

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MASOUMI ALI ASGHAR; RAHIMI SHARBAF MOGHADAS GHOLAMHOSEIN; LIYAGHAT GHOLAM HOSEIN

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Journal: Journal of Science and Technology of Composites Year:2017 | Volume:4 | Issue:3 Page(s): 347-358

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Title

TRANSIENT HEAT TRANSFER ANALYSIS IN COMPOSITE METAL CYLINDRICAL VESSEL USING THE LAYERWISE THEORY AND DIFFERENTIAL QUADRATURE METHOD

Author(s)

MASOUMI ALI ASGHAR | RAHIMI SHARBAF MOGHADAS GHOLAMHOSEIN | LIYAGHAT GHOLAM HOSEIN | Issue Writer Certificate

Keywords

DIFFERENTIAL QUADRATUREQ2

COMPOSITE METAL VESSELQ2

LAYERWISE THEORYQ2

HEAT TRANSFER ANALYSISQ2

FINITE ELEMENTQ2

Abstract

In this paper, transient HEAT TRANSFER ANALYSIS in composite metal cylindrical vessel will be investigated using the LAYERWISE THEORY and DIFFERENTIAL QUADRATURE method. For this purpose, five samples from the metallic cylindrical vessel and composite metal cylindrical vessel has been under transient HEAT TRANSFER ANALYSIS. Thermal conditions of governing the issue has been extracted from a practical and experimental conditions. The aim of this research is study and investigate the behavior of heat transfer in the vessels mentioned. Therefore, the governing equations of heat transfer is achieved in a multilayered cylindrical vessel. Due to the different behavior of multilayer cylindrical in heat transfer, the analysis is to be done using the LAYERWISE THEORY in order to obtain more accuracy. Then, the governing equations of heat transfer are derived for this vessel and are solved by DIFFERENTIAL QUADRATURE method. In DIFFERENTIAL QUADRATURE method, to solve the governing relations, these equations must be in the form of the matrix equations. The MATLAB programming code to be used to solve this matrix equations. After extracting result, temperature changes and heat transfer behavior in multilayer cylindrical vessel versus time have been discussed. To validate the resulting solution of the LAYERWISE THEORY and DIFFERENTIAL QUADRATURE method, modeling and numerical analysis of heat transfer in Abaqus FINITE ELEMENT software done and the results of this software were compared with the solution of DIFFERENTIAL QUADRATURE. Finally, the results of this study have been compared with exact solution of heat transfer equations in the several reference.

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APA: Copy

MASOUMI, ALI ASGHAR, RAHIMI SHARBAF MOGHADAS, GHOLAMHOSEIN, & LIYAGHAT, GHOLAM HOSEIN. (2017). TRANSIENT HEAT TRANSFER ANALYSIS IN COMPOSITE METAL CYLINDRICAL VESSEL USING THE LAYERWISE THEORY AND DIFFERENTIAL QUADRATURE METHOD. JOURNAL OF SCIENCE AND TECHNOLOGY OF COMPOSITES (JSTC), 4(3 ), 347-358. SID. https://sid.ir/paper/251736/en

Vancouver: Copy

MASOUMI ALI ASGHAR, RAHIMI SHARBAF MOGHADAS GHOLAMHOSEIN, LIYAGHAT GHOLAM HOSEIN. TRANSIENT HEAT TRANSFER ANALYSIS IN COMPOSITE METAL CYLINDRICAL VESSEL USING THE LAYERWISE THEORY AND DIFFERENTIAL QUADRATURE METHOD. JOURNAL OF SCIENCE AND TECHNOLOGY OF COMPOSITES (JSTC)[Internet]. 2017;4(3 ):347-358. Available from: https://sid.ir/paper/251736/en

IEEE: Copy

ALI ASGHAR MASOUMI, GHOLAMHOSEIN RAHIMI SHARBAF MOGHADAS, and GHOLAM HOSEIN LIYAGHAT, “TRANSIENT HEAT TRANSFER ANALYSIS IN COMPOSITE METAL CYLINDRICAL VESSEL USING THE LAYERWISE THEORY AND DIFFERENTIAL QUADRATURE METHOD,” JOURNAL OF SCIENCE AND TECHNOLOGY OF COMPOSITES (JSTC), vol. 4, no. 3 , pp. 347–358, 2017, [Online]. Available: https://sid.ir/paper/251736/en

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